阅读说明：本技术 一种轻质混凝土陶瓷厚板幕墙及其安装方法 (Lightweight concrete ceramic thick plate curtain wall and mounting method thereof ) 是由 夏廷晖 夏友华 葛奇 于 2020-06-24 设计创作，主要内容包括：本申请涉及预制幕墙的领域,公开了一种轻质混凝土陶瓷厚板幕墙及其安装方法,解决了现有的幕墙在吊装的同时进行装配施工,施工难度较大的技术问题,其包括多个幕墙分体,相邻两个所述幕墙分体拼接固定,所述幕墙分体包括自外而内依次设置的陶瓷厚板、外叶板以及结构层,所述外叶板由钢筋捆扎成型并浇筑混凝土形成,所述陶瓷厚板和外叶板之间通过第一连接件连接,所述第一连接件包括多个爪钉,所述爪钉的一端与瓷厚板固定连接且预埋在外叶板的混凝土内。本申请在进行吊装幕墙之前,将陶瓷厚板、外叶板以及结构层一体化连接,降低了对幕墙进行吊装施工的难度。(The utility model relates to a field of prefabricated curtain discloses a lightweight concrete pottery thick plate curtain and mounting method thereof, has solved current curtain and has carried out the assembly construction in hoist and mount, and the great technical problem of the construction degree of difficulty, it includes a plurality of curtain components of a whole that can function independently, adjacent two curtain components of a whole that can function independently concatenation is fixed, the curtain components of a whole that can function independently includes ceramic thick plate, outer lamina and the structural layer that sets gradually from outer to inner, outer lamina is tied up the shaping by the reinforcing bar and is pour the concrete and form, connect through first connecting piece between ceramic thick plate and the outer lamina, first connecting piece includes a plurality of claw nails, the one end and the ceramic thick plate fixed connection of claw nail and pre-buried in the concrete of outer lamina. This application is before hoisting the curtain, with ceramic thick plate, outer lamina and structural layer integration connection, has reduced the degree of difficulty of hoisting the construction to the curtain.)

1. The utility model provides a light concrete pottery thick plate curtain which characterized in that: including a plurality of curtain components of a whole that can function independently (1), adjacent two curtain components of a whole that can function independently (1) concatenation is fixed, curtain components of a whole that can function independently (1) includes ceramic thick plate (11), outer lamina (12) and structural layer (14) that set gradually from outer and interior, outer lamina (12) are tied up the shaping by the reinforcing bar and are pour the concrete and form, connect through first connecting piece (111) between ceramic thick plate (11) and outer lamina (12), first connecting piece (111) include a plurality of claw nails (1111), the one end and the ceramic thick plate fixed connection of claw nail (1111) and pre-buried in the concrete of outer lamina (12).

2. The lightweight concrete ceramic thick plate curtain wall as claimed in claim 1, wherein: the ceramic thick plate (11) is towards one side of outer leaf plate (12) seted up with anchor hole (1112) corresponding with claw nail (1111), peg graft in anchor hole (1112) claw nail (1111), just anchor hole (1112) intussuseption is filled with glue (1113).

3. The lightweight concrete ceramic thick plate curtain wall as claimed in claim 1, wherein: an insulating layer (13) is arranged between the outer leaf plate (12) and the structural layer (14), the insulating layer (13) is made of rock wool insulating plates, and the insulating layer (13) is connected with the outer leaf plate (12) and the structural layer (14) through second connecting pieces (131).

4. The lightweight concrete ceramic thick plate curtain wall as claimed in claim 3, wherein: the second connecting piece (131) comprises a plurality of pulling pieces (1311), the pulling pieces (1311) fixedly penetrate through the heat insulation layer (13), and two ends of the pulling pieces are fixedly connected with the outer leaf plates (12) and the structural layer (14) respectively.

5. The lightweight concrete ceramic thick plate curtain wall as claimed in claim 1, wherein: the structural layer (14) is formed by building concrete, a grouting sleeve (141) is preset in the structural layer (14), sleeve steel bars (143) are fixedly connected to one end of the grouting sleeve (141), one end, far away from the sleeve steel bars (143), of the grouting sleeve (141) is set to be an open end (142), a grouting pipeline (145) and a grout outlet pipeline (147) communicated with the grouting sleeve (141) are preset in the structural layer (14), the structural layers (14) of two adjacent curtain wall split bodies (1) are correspondingly spliced, the sleeve steel bars (143) in one curtain wall split body (1) are correspondingly inserted into the grouting sleeve (141) in the other curtain wall split body (1), mortar is poured into the grouting sleeve (141) through the grouting pipeline (145), and a cement mortar filling block (144) is filled between the structural layers (14) of two adjacent curtain wall split bodies (1), a splicing seam (15) is formed among the thick ceramic plates (11), the outer blades (12) and the heat-insulating layer (13) of the two adjacent curtain wall split bodies (1), and the splicing seam (15) is sealed through a sealing element (151).

6. The lightweight concrete ceramic thick plate curtain wall as claimed in claim 5, wherein: the grouting pipe (145) is located above the grout outlet pipe (147) in height position.

7. The lightweight concrete ceramic thick plate curtain wall as claimed in claim 6, wherein: one side of the thick ceramic plate (11) departing from the outer blade plate (12) is arranged to be external, and two ends of the outer blade plate (12) are inclined from outside to inside and are in a rabbet shape with a high inside and a low outside.

8. The lightweight concrete ceramic thick plate curtain wall as claimed in claim 7, wherein: the seal (151) comprises a polyethylene closed cell foam rod (1511) and a silicone sealant (1512), and the polyethylene closed cell foam rod (1511) and the silicone sealant (1512) fill and close the splice seam (15).

9. Method for the installation of a light concrete ceramic slab (11) curtain wall according to any one of claims 1 to 7, characterized in that it comprises the following installation steps:

mounting outer leaf (12): arranging a plurality of rows of anchoring holes (1112) on one side of the ceramic thick plate (11) by using a punching machine, inserting the claw tips of the claw nails (1111) into the anchoring holes (1112), and filling glue (1113) into the anchoring holes (1112) to enable the claw nails (1111) and the ceramic thick plate (11) to be bonded and fixed; then, binding steel bars at one side of the ceramic thick plate (11) where the claw nails (1111) are bonded for forming, pouring concrete, and forming an outer blade plate (12) on the ceramic thick plate (11) so that the claw nails (1111) are pre-embedded in the concrete;

mounting insulation board and structural layer (14): before the concrete of the outer leaf plate (12) is solidified, the insulation board with the pulling piece (1311) fixed in a penetrating mode is attached to one side, away from the thick ceramic plate (11), of the outer leaf plate (12) through the concrete, and one end of the pulling piece (1311) is limited in the concrete of the outer leaf plate (12); then pouring concrete on one side of the heat insulation plate, which is far away from the outer blade plate (12), to form a structural layer (14), prefabricating one end, which is far away from the outer blade plate (12), of a tie piece (1311) on the structural layer (14), presetting a grouting sleeve (141) in the structural layer (14), and a grouting pipeline (145) and a grout outlet pipeline (147) which are communicated with the grouting sleeve (141), setting one end of the grouting sleeve (141) to be an open end (142), fixedly connecting the other end of the grouting sleeve with a sleeve steel bar (143), prefabricating the sleeve steel bar (143) in the structural layer (14), and compositely connecting the outer blade plate (12), the heat insulation plate and the structural layer (14) to form a curtain wall split body (;

splicing two adjacent curtain wall split bodies (1): correspondingly splicing two adjacent curtain wall split bodies (1), inserting sleeve steel bars (143) in one curtain wall split body (1) into grouting sleeves (141) of the two adjacent curtain wall split bodies (1), filling cement mortar between structural layers (14) of the two curtain wall split bodies (1), then pouring the mortar into the grouting sleeves (141) through grouting pipelines (145), fixedly connecting the two structural layers (14), and forming splicing seams (15) among ceramic thick plates (11), outer blades (12) and heat insulation plates of the two curtain walls;

sealing splice seam (15): the silicone sealant (1512) is filled in the splicing seam (15) towards the inside, the polyethylene closed-cell foam rod (1511) is extruded into the splicing seam (15), the polyethylene closed-cell foam rod (1511) is preset in the silicone sealant (1512), and the outer side of the polyethylene closed-cell foam rod (1511) is abutted to the inner wall of the splicing seam (15).

10. The method for installing the lightweight concrete thick ceramic panel curtain wall as claimed in any one of claims 9, wherein: in the step of installing the outer blade (12), after the hole of the anchoring hole (1112) is opened, air is blown into the anchoring hole (1112) by using an air pressure pipe connected with an air pump until the debris in the anchoring hole (1112) is cleaned.

Technical Field

The application relates to the technical field of prefabricated curtain walls, in particular to a lightweight concrete thick ceramic plate curtain wall and an installation method thereof.

Background

As various novel plates with excellent performance at present, the ceramic thick plate is widely applied to various decorative surface layer constructions, in particular to various decorative constructions of dry-hanging curtain walls.

Notice is CN 203603326U's china curtain wall discloses a curtain is hung futilely to back of body bolt formula, including the panel, locate the stand at the panel back to and the subassembly is hung futilely of connection panel and stand, hang the subassembly futilely and include the back of the body bolt spare that links to each other with the panel, at least one side of stand is equipped with L type support piece, L type support piece includes mutually perpendicular's first slice portion and second slice portion, first slice portion links to each other with the stand, second slice portion links to each other with the subassembly of hanging futilely.

However, the back-bolt type dry-hanging curtain wall is subjected to wall decoration construction after installation is completed, construction steps are complicated, the weight of the dry-hanging curtain wall is large, the quality of dry-hanging construction is difficult to control, and potential safety hazards are large.

Disclosure of Invention

Aiming at the defects in the prior art, the application aims to provide the lightweight concrete ceramic thick plate curtain wall and the installation method thereof, after the ceramic thick plate, the outer blade plate and the structural layer are integrally connected, the integral curtain wall is hoisted, the operation difficulty of hoisting the curtain wall is reduced, and the construction safety performance is improved.

The technical purpose of the application is realized by the following technical scheme: the utility model provides a lightweight concrete pottery thick plate curtain, includes a plurality of curtain components of a whole that can function independently, adjacent two the concatenation of curtain components of a whole that can function independently is fixed, the curtain components of a whole that can function independently includes ceramic thick plate, outer lamina and the structural layer that sets gradually from outer to inner, outer lamina is tied up the shaping by the reinforcing bar and is pour concrete and form, connect through first connecting piece between ceramic thick plate and the outer lamina, first connecting piece includes a plurality of claw nails, the one end and the ceramic thick plate fixed connection of claw nail just pre-buried in the concrete of lamina outside.

Through the technical scheme, the ceramic thick plate, the outer blade plate and the structural layer are integrally connected, an operator is not required to construct the outer blade plate and the structural layer in the process of hoisting the ceramic thick plate, the construction difficulty is reduced, and the construction safety performance is improved.

The application is further configured to: and one side of the thick ceramic plate facing the outer blade plate is provided with anchoring holes corresponding to the claw nails, the claw nails are inserted into the anchoring holes, and glue is filled in the anchoring holes.

Through the technical scheme, the claw nails are limited in the anchoring holes and are bonded and fixed through glue, so that the connection stability between the claw nails and the thick ceramic plate is increased, and the connection stability between the thick ceramic plate and the outer blade plate is increased.

The application is further configured to: and a heat insulation layer is arranged between the outer leaf plate and the structural layer, the heat insulation layer is made of rock wool heat insulation plates, and the heat insulation layer is respectively connected with the outer leaf plate and the structural layer through second connecting pieces.

According to the technical scheme, the rock wool heat-insulation board is also called as a rock wool board, rock wool products all adopt high-quality basalt, dolomite and the like as main raw materials, are melted at a high temperature of over 1450 ℃, are subjected to high-speed centrifugation by adopting an international advanced four-shaft centrifugal machine to form fibers, are sprayed with a certain amount of binder, dustproof oil and water repellent, are collected by a cotton collecting machine, are subjected to a pendulum process, are laid cotton by a three-dimensional method, and are then cured and cut, so that the rock wool heat-insulation board has good heat insulation performance. The arrangement of the heat-insulating layer is beneficial to enhancing the heat-insulating performance of the split curtain wall.

The application is further configured to: the second connecting piece comprises a plurality of pulling pieces, the pulling pieces fixedly penetrate through the heat preservation layer, and two ends of the pulling pieces are fixedly connected with the outer leaf plates and the structural layer respectively.

Through above-mentioned technical scheme, the drawknot spare is linked together heated board and outer lamina and structural layer, has strengthened the stability of being connected between heated board and outer lamina and the structural layer, has realized the integration of curtain components of a whole that can function independently and has connected, has strengthened overall structure's steadiness.

The application is further configured to: the structural layer is built by laying bricks or stones by concrete and is formed, grout sleeve has been preset in the structural layer, grout sleeve's one end rigid coupling has the sleeve reinforcing bar, grout sleeve keeps away from the one end of sleeve reinforcing bar and establishes to the open end, grout pipeline and the play thick liquid pipeline that is linked together with grout sleeve are preset in the structural layer, adjacent two the structural layer of curtain components of a whole that can function independently corresponds the concatenation, and one of them sleeve reinforcing bar in the curtain components of a whole that can function independently corresponds in inserting into the grout sleeve in another curtain components of a whole that can function independently, through grout pipeline fills mortar towards in the grout sleeve, adjacent two it has the cement mortar filling block to fill between the structural layer of curtain components of a whole that can function independently, adjacent two form the splice joint between the ceramic thick plate of curtain components of.

Through the technical scheme, when splicing construction is carried out to two adjacent curtain components of a whole that can function independently, the operator inserts into the internal grout sleeve of another curtain component through corresponding the internal sleeve reinforcing bar of a curtain component, then correspond the concatenation with two curtain components of a whole that can function independently, and fill cement mortar between two adjacent structural layers, then pour the mortar in the grout sleeve towards the grout sleeve through the slip casting pipeline, until the mortar spills over out the thick liquid pipeline, thereby make the sleeve reinforcing bar fix in the grout sleeve, make two structural layers even as an organic whole, then will splice the seam through the sealing member and seal, thereby realize the concatenation work of two curtain components of a whole that can function independently, the stability of connecting between two adjacent curtain components of a whole that can.

The application is further configured to: the grouting pipeline is positioned above the grout outlet pipeline in the height position.

Through above-mentioned technical scheme, when towards slip casting in the slip casting pipeline, the mortar is poured and is advanced in the grout sleeve and the liquid level risees gradually to air through hole play thick liquid pipeline mouth in the grout sleeve is whole to be discharged, has reduced the possibility that the bubble appears in the grout sleeve to the mortar, thereby has strengthened the closely knit degree of mortar in the grout sleeve intussuseption, has strengthened the stability to the restriction of sleeve reinforcing bar, and then has strengthened the stability of connecting between two adjacent curtain components of a whole that can function independently.

The application is further configured to: one side of the thick ceramic plate, which is far away from the outer blade plate, is arranged to be external, and two ends of the outer blade plate are inclined from outside to inside and are in rabbet shapes with high inside and low outside.

Through above-mentioned technical scheme, when two adjacent curtain components of a whole that can function independently concatenates, the setting of tongue-and-groove makes things convenient for two curtain components of a whole that can function independently to correspond the concatenation on the one hand, and on the other hand makes the splice joint be high outside low to play waterproof effect.

The application is further configured to: the sealing element comprises a polyethylene closed-cell foam rod and a silicone sealant, and the splicing seam is filled and sealed by the polyethylene closed-cell foam rod and the silicone sealant; the silicone sealant is a paste prepared by mixing polydimethylsiloxane as a main raw material, a cross-linking agent, a filler, a plasticizer, a coupling agent and a catalyst in a vacuum state, and is cured to form the elastic silicone rubber by reacting with water in the air at room temperature.

Through the technical scheme, the polyethylene closed-cell foam has no water absorption, weather resistance and aging resistance; the silicone sealant is a paste formed by mixing polydimethylsiloxane as a main raw material, a cross-linking agent, a filler, a plasticizer, a coupling agent and a catalyst in a vacuum state, and is cured to form elastic silicone rubber through reaction with water in the air at room temperature, the polyethylene closed-cell foam rod and the silicone sealant are plugged between splicing seams, so that the air tightness of the splicing seams is enhanced, the possibility of looseness between two adjacent curtain wall split bodies caused by water permeation between the splicing seams is reduced, and the connection stability between the two adjacent curtain wall split bodies is enhanced.

The technical purpose of the application is realized by the following technical scheme: a method for installing a light concrete ceramic thick plate curtain wall comprises the following installation steps:

installing an outer blade plate: arranging a plurality of rows of anchoring holes on one side of the ceramic thick plate by using a punching machine, inserting the claw tips of the claw nails into the anchoring holes, and filling glue into the anchoring holes to ensure that the claw nails are fixedly bonded with the ceramic thick plate; then, binding steel bars on one side of the ceramic thick plate, which is bonded with the claw nails, forming, pouring concrete, and forming an outer leaf plate on the ceramic thick plate so that the claw nails are pre-embedded in the concrete;

installing the heat-insulating plate and the structural layer: before the concrete of the outer leaf plate is solidified, the heat insulation plate fixedly penetrated with the pulling piece is attached to one side, away from the ceramic thick plate, of the outer leaf plate through the concrete, and one end of the pulling piece is limited in the concrete of the outer leaf plate; then pouring concrete on one side of the heat insulation plate, which is far away from the outer blade plate, to form a structural layer, prefabricating one end of the tie piece, which is far away from the outer blade plate, on the structural layer, wherein a grouting sleeve, a grouting pipeline and a grout outlet pipeline are preset in the structural layer, one end of the grouting sleeve is arranged as an open end, the other end of the grouting sleeve is fixedly connected with a sleeve steel bar, the sleeve steel bar is prefabricated in the structural layer, and the outer blade plate, the heat insulation plate and the structural layer are in composite connection to form a curtain wall split;

splicing two adjacent curtain wall split bodies: correspondingly splicing two adjacent curtain wall split bodies, inserting sleeve steel bars in one curtain wall split body into grouting sleeves of the adjacent curtain wall split bodies, filling cement mortar between structural layers of the two curtain wall split bodies, and then pouring the mortar into the grouting sleeves through a grouting pipeline to fixedly connect the two structural layers, wherein a splicing seam is formed among the ceramic thick plates, the outer leaf plates and the heat insulation plates of the two curtain walls;

sealing and splicing the seams: and filling silicone sealant into the splicing seams, extruding a polyethylene closed-cell foam rod into the splicing seams, presetting the polyethylene closed-cell foam rod in the silicone sealant, and enabling the outer sides of the polyethylene closed-cell foam rod to be abutted against the inner walls of the splicing seams.

Through the technical scheme, before the ceramic thick plate is hoisted to the floor slab, an operator sequentially constructs and installs the outer leaf plate, the heat preservation layer and the structural layer, so that the outer leaf plate, the heat preservation layer and the structural layer are sequentially and fixedly connected with the ceramic thick plate, the integrated connection of the split curtain wall is realized, and the adjacent curtain wall bodies are spliced and installed together. The construction operation of the outer blade plate, the heat insulation layer and the structural layer is carried out before the ceramic thick plate is hoisted, so that the operation difficulty of hoisting construction of an operator on the curtain wall is reduced.

The application is further configured to: in the step of installing the outer blade plate, after the hole of the anchoring hole is formed, the anchoring hole is blown by an air pressure pipe connected with an air pump until the scraps in the anchoring hole are cleaned up.

Through above-mentioned technical scheme, played the clearance effect to the downthehole piece of anchor, reduced the claw nail and pegged graft and bond when the anchor is downthehole, remove the friction between piece and the claw nail, and lead to the claw nail to take place not hard up possibility at the downthehole emergence of anchor to the stability of being connected between claw nail and the outer leaf plate has been guaranteed.

In summary, the present application has the following beneficial effects:

1. the difficulty of hoisting the curtain wall by an operator is reduced, and the safety performance of construction is improved;

2. the integral heat insulation performance of the curtain wall is improved, the possibility of water seepage at the splicing seams is reduced, and the waterproof and anti-seepage effects are achieved.

Drawings

Fig. 1 is a schematic structural diagram of an internal structure of a curtain wall split body and a splicing structure of two adjacent curtain wall split bodies in the embodiment.

Fig. 2 is an enlarged view of a portion a in fig. 1.

Fig. 3 is an enlarged view of a portion B in fig. 1.

Reference numerals: 1. the curtain wall is split; 11. a thick ceramic plate; 111. a first connecting member; 1111. claw nails; 1112. an anchoring hole; 1113. glue; 12. an outer leaf plate; 13. a heat-insulating layer; 131. a second connecting member; 1311. a pulling member; 14. a structural layer; 141. grouting a sleeve; 142. an open end; 143. sleeve steel bars; 144. cement mortar filling blocks; 145. grouting a pipeline; 146. a grouting port; 147. a slurry outlet pipeline; 148. a pulp outlet; 15. splicing seams; 151. a seal member; 1511. a polyethylene closed cell foam rod; 1512. a silicone sealant.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

Referring to fig. 1, the application discloses a lightweight concrete ceramic thick plate curtain wall, including a plurality of curtain wall components of a whole that can function independently 1, two adjacent curtain wall components of a whole that can function independently 1 splice fixedly, and curtain wall components of a whole that can function independently 1 includes ceramic thick plate 11, outer lamina 12, heat preservation 13 and structural layer 14 that set gradually from outside to inside.

Referring to fig. 1 and 2, the thick ceramic plate 11 and the outer blade 12 are connected by a first connecting member 111, the first connecting member 111 includes a plurality of claw nails 1111, one side of the thick ceramic plate 11 facing the outer blade 12 is provided with a plurality of rows of anchoring holes 1112 corresponding to the claw nails 1111, the claw tips of the claw nails 1111 are inserted into the anchoring holes 1112, and the anchoring holes 1112 are filled with glue 1113, in this embodiment, the glue 1113 is epoxy glue, so that the claw nails 1111 and the thick ceramic plate 11 are bonded and fixed. The outer blade plate 12 is formed by binding and molding steel bars and pouring concrete, and the part of the claw nail 1111 far away from the thick ceramic plate 11 is embedded in the concrete of the outer blade plate 12, so that the thick ceramic plate 11 and the outer blade plate 12 are fixedly connected together.

Referring to fig. 1 and 2, one side of the thick ceramic plate 11 departing from the outer blade plate 12 is arranged as the outside, and two ends of the outer blade plate 12 are inclined at an angle of 45 degrees from the outside to the inside and are in a rabbet shape with a high inside and a low outside, so that the water blocking effect on water is facilitated, and the waterproof performance of the curtain wall is facilitated to be enhanced.

Referring to fig. 1 and 3, heat preservation 13 chooses for use the rock wool heated board to make, heat preservation 13 is connected with outer leaf plate 12 and structural layer 14 respectively through second connecting piece 131, second connecting piece 131 includes a plurality of drawknot pieces 1311, the heat preservation 13 is worn to establish by drawknot piece 1311 is fixed, before the concrete of outer leaf plate 12 solidifies, the operator laminates the rock wool heated board in one side that outer leaf plate 12 deviates from ceramic thick plate 11, the one end of drawknot piece 1311 is pegged graft in the concrete this moment, treat the concrete setting back of outer leaf plate 12, the one end of drawknot piece 1311 is pre-buried in outer leaf plate 12, and the rock wool heated board bonds fixedly with outer leaf plate 12. The rock wool heat-insulating board has good heat-insulating property, thereby being beneficial to improving the heat-insulating effect of the curtain wall.

Referring to fig. 1 and 3, the structural layer 14 is made of concrete, the concrete is poured on the side of the heat preservation layer 13 away from the outer blade 12, the concrete is solidified to form the structural layer 14, and one end of the tie 1311 away from the outer blade 12 is embedded in the structural layer 14. At this time, the thick ceramic plate 11, the outer blade plate 12, the heat insulation layer 13 and the structural layer 14 are connected into a whole, which is beneficial to reducing the operation difficulty of an operator in hoisting construction of the curtain wall.

Referring to fig. 1 and 3, a grouting sleeve 141 is preset in the structural layer 14, sleeve reinforcing steel bars 143 are welded at one end of the grouting sleeve 141, which is far away from the sleeve reinforcing steel bars 143, is set as an open end 142, a grouting pipeline 145 and a grout outlet pipeline 147, which are communicated with the grouting sleeve 141, are preset in the structural layer 14 along the horizontal direction, the grouting pipeline 145 is located above the grout outlet pipeline 147 in the height position, a grouting port 146 and a grout outlet 148 are formed in one side of the structural layer 14, which is far away from the insulating layer 13, the grouting port 146 is communicated with the grouting pipeline 145, and the grout outlet 148 is communicated with the grout outlet pipeline 147.

Referring to fig. 1 and 3, when two adjacent curtain wall split bodies 1 are correspondingly spliced, sleeve steel bars 143 in one of the curtain wall split bodies 1 are correspondingly inserted into a grouting sleeve 141 in the other curtain wall split body 1, and a cement mortar filling block 144 is filled between the structural layers 14 of the two adjacent curtain wall split bodies 1. And then, grouting mortar towards the grouting pipeline 145 and the grouting sleeve 141 through the grouting opening 146 until the grouting is filled into the grout outlet pipeline 147 and overflows from the grout outlet 148, wherein the sleeve reinforcing steel bars 143 are fixed in the grouting sleeve 141, so that the structural layers 14 of the two curtain wall split bodies 1 are spliced and fixed.

Referring to fig. 1 and 2, a splicing seam 15 is formed between the ceramic thick plate 11, the outer blade plate 12 and the heat-insulating layer 13 of two adjacent curtain wall split bodies 1, the splicing seam 15 is sealed by the sealing element 151, the sealing element 151 comprises a polyethylene closed-cell foam rod 1511 and a silicone sealant 1512, the polyethylene closed-cell foam rod 1511 and the silicone sealant 1512 fill and seal the splicing seam 15, on one hand, the ceramic thick plate 11, the outer blade plate 12 and the heat-insulating layer 13 of two adjacent curtain wall split bodies 1 are bonded and fixed, on the other hand, the sealing performance of the splicing seam 15 is improved, and the possibility of water seepage at the splicing seam 15 is reduced.

The application also discloses a method for installing the lightweight concrete thick ceramic plate curtain wall, which comprises the following installation steps:

mounting the outer blade plate 12: arranging a plurality of rows of anchoring holes 1112 on one side of the ceramic thick plate 11 by using a punching machine, inserting claw tips of the claw nails 1111 into the anchoring holes 1112, and filling glue 1113 into the anchoring holes 1112 to bond and fix the claw nails 1111 and the ceramic thick plate 11; then, a steel bar is tied up on one side of the ceramic thick plate 11, which is bonded with the claw nail 1111, for molding, concrete is poured, and an outer blade plate 12 is formed on the ceramic thick plate 11, so that the claw nail 1111 is pre-embedded in the concrete; after finishing the tapping of the anchor hole 1112, an operator firstly blows air into the anchor hole 1112 by using an air pressure pipe connected with an air pump until debris in the anchor hole 1112 is cleaned up, and then installs the claw nail 1111, so that the possibility that the claw nail 1111 is easily loosened after being installed in the anchor hole 1112 due to the debris in the anchor hole 1112 is reduced, and the stability of connection between the claw nail 1111 and the ceramic thick plate 11 is favorably enhanced.

Installation of insulation board and structural layer 14: before the concrete of the outer leaf plate 12 is solidified, the insulation board with the pulling piece 1311 fixed in a penetrating manner is attached to one side, away from the ceramic thick plate 11, of the outer leaf plate 12 through the concrete, and one end of the pulling piece 1311 is limited in the concrete of the outer leaf plate 12; then, concrete is poured on one side, away from the outer blade plate 12, of the heat insulation plate to form a structural layer 14, one end, away from the outer blade plate 12, of the tie piece 1311 is prefabricated on the structural layer 14, a grouting sleeve 141, a grouting pipeline 145 and a grout outlet pipeline 147 are preset in the structural layer 14, the grouting sleeve 141 is communicated with the grouting sleeve 141, one end of the grouting sleeve 141 is set to be an open end 142, the other end of the grouting sleeve 141 is fixedly connected with sleeve steel bars 143, the sleeve steel bars 143 are prefabricated in the structural layer 14, and the outer blade plate 12, the heat insulation plate and the structural layer 14 are connected in a;

splicing two adjacent curtain wall split bodies 1: correspondingly splicing two adjacent curtain wall split bodies 1, inserting sleeve steel bars 143 in one curtain wall split body 1 into a grouting sleeve 141 of the adjacent curtain wall split body 1, filling cement mortar between the structural layers 14 of the two curtain wall split bodies 1, then pouring mortar into a grouting pipeline 145 and the grouting sleeve 141 through a grouting opening 146, discharging and extruding air in the grouting sleeve 141 through a grout outlet 148 along with the gradual rise of the liquid level of the mortar in the grouting sleeve 141 until the mortar is filled into the grout outlet pipeline 147 and overflows from the grout outlet 148, and at the moment, fixing and limiting the sleeve steel bars 143 in the grouting sleeve 141, so that the two structural layers 14 are fixedly connected; at the moment, a splicing seam 15 is formed among the ceramic thick plates 11, the outer blade plates 12 and the heat insulation plates of the two curtain walls;

sealing the splice seam 15: the silicone sealant 1512 is filled towards the splicing seam 15, the polyethylene closed-cell foam rod 1511 is extruded into the splicing seam 15, the polyethylene closed-cell foam rod 1511 is preset in the silicone sealant 1512, and the outer side of the polyethylene closed-cell foam rod 1511 is abutted against the inner wall of the splicing seam 15.

The present embodiment is only for explaining the present application, and it is not limited to the present application, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present application.